Classical Method for Deriving the Electromagnetic Propagation Equations for Double Negative Materials With Application for Antenna Design

Abstract

We derive a system of propagation equations in a Double Negative (DN) material in a way that appears to differ from previous derivations although the end result is the same. Our derivation assumes the Poynting vector theorem applies, real materials always have some loss, epsilon(omega) and mu(omega) are obtained from real materials, and wave energy traveling in a specified direction must always be accompanied by a loss of energy in that direction. Additional mathematics beyond Maxwell's equation is not required. Energy losses per unit length of travel are finite, and can be extremely small. Propagation in a lossless DN media is found as the mathematical limiting solution of an extremely small energy loss per unit length. When developed along these principles, the equations developed for designing leaky antennas are straightforward.

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Document Details

Document Type
Technical Report
Publication Date
Feb 01, 2007
Accession Number
ADA464825

Entities

People

  • Ira Kohlberg

Tags

Communities of Interest

  • Advanced Electronics
  • Energy and Power Technologies

DTIC Thesaurus Topics

  • Boundaries
  • Complex Numbers
  • Constitutive Equations
  • Electric Fields
  • Electromagnetic Wave Propagation
  • Energy
  • Equations
  • Frequency
  • Losses
  • Magnetic Fields
  • Materials
  • Mathematics
  • Military Research
  • Numbers
  • Phase Velocity
  • Wave Power
  • Wave Propagation

Fields of Study

  • Physics

Readers

  • Electromagnetic Wave Scattering and Antenna Radiation Engineering
  • Materials Science and Engineering.
  • Microwave Engineering.